Detection of gravitational waves with quantum encryption technology

Fabrizio Tamburini; Bruce A. Bassett; Carlo Ungarelli (Portsmouth)

arXiv:gr-qc/0006106·gr-qc·May 23, 2007·3 cites

Detection of gravitational waves with quantum encryption technology

Fabrizio Tamburini, Bruce A. Bassett, Carlo Ungarelli (Portsmouth)

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TL;DR

This paper introduces a novel method for gravitational wave detection leveraging quantum entanglement and quantum encryption, where gravitational waves influence quantum correlations, enabling their identification through quantum statistical analysis.

Contribution

It presents a new detection technique using quantum entanglement that can distinguish gravitational wave signals from noise by analyzing quantum correlation distortions.

Findings

01

Quantum entanglement is affected by gravitational waves.

02

Distortions in quantum correlation statistics can indicate gravitational wave presence.

03

The method can differentiate between deterministic and stochastic gravitational wave sources.

Abstract

We propose a new technique for detecting gravitational waves using Quantum Entangled STate (QUEST) technology. Gravitational waves reduce the non-locality of correlated quanta controlled by Bell's inequalities, distorting quantum encryption key statistics away from a pure white noise. Gravitational waves therefore act as shadow eavesdroppers. The resulting colour distortions can, at least in principle, be separated from noise and can differentiate both deterministic and stochastic sources.

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Taxonomy

TopicsChaos-based Image/Signal Encryption · Pulsars and Gravitational Waves Research